ISSN 1000-3665 CN 11-2202/P

    川西康定—新都桥段菠茨沟组板岩蠕变特性及损伤模型

    Creep characteristics and nonlinear creep damage model of Bocigou formation slate in Kangding-Xinduqiao section of West Sichuan

    • 摘要: 岩石的蠕变特性与岩体的长期稳定性有着密切联系。随着我国西部地区各深埋隧道的开挖,为保证工程安全性及地下建筑的长期稳定,迫切需要开展复杂应力状态下岩石蠕变特性的研究。传统的蠕变本构模型难以对岩石加速蠕变阶段进行准确的描述,且现有蠕变模型难以对菠茨沟组板岩的蠕变特性进行有针对性的拟合。因此,选取川西康定—新都桥段菠茨沟组板岩为研究对象,在查明地质环境背景和岩石矿物成分基础上开展了卸荷蠕变试验,分析了菠茨沟组板岩在卸荷条件下的变形特征,揭示了板岩蠕变特性及卸荷过程中的损伤演化规律;考虑卸荷蠕变过程中的损伤累积效应,引入损伤变量,对传统西原模型中牛顿体元件进行改进,建立能描述加速蠕变阶段的蠕变损伤模型。研究表明:卸荷条件下,板岩变形以瞬时弹性应变为主,随偏应力水平增加蠕变现象显著增强;板岩的长期强度有20.2%~27.1%折减;采用1-stOpt对非线性蠕变损伤模型进行参数辨识,拟合理论曲线与试验值吻合度较高,相关系数达到0.945;损伤变量引入后,改进的非线性蠕变损伤模型可以较合理地描述研究区板岩卸荷蠕变特性。该研究可为相关工况下围岩稳定性分析提供理论依据。

       

      Abstract: The creep characteristics of rock are closely related to the long-term stability of rock mass. With the excavation of deep buried tunnels in west China, in order to ensure the safety of engineering and the long-term stability of underground buildings, it is particularly important to study the creep characteristics of rock under complex stress conditions. The traditional creep constitutive model is difficult to accurately describe the accelerated creep stage of rock, and the existing creep model is difficult to fit the creep characteristics of the Pocigou Formation slate. This study takes the Bocigou Formation slate in the Kangding-Xinduqiao section of west Sichuan as the research object. Based on the identification of geological environment background and rock mineral composition, the unloading creep test is carried out. The deformation characteristics of the Bocigou Formation slate under unloading conditions are analyzed, and the creep characteristics of the slate and the damage evolution law during unloading are revealed. Considering the cumulative damage effect in the unloading creep process, the damage variable is introduced to improve the Newtonian element in the traditional Nishihara model, and a creep damage model which can describe the accelerated creep stage is established. The results show that under unloading conditions, the deformation of slate is dominated by instantaneous elastic strain, and the creep phenomenon is significantly enhanced with the increasing deviatoric stress level. The long-term strength of slate is reduced by 20.2%–27.1%. The 1-stOpt is used to identify the parameters of the nonlinear creep damage model. The fitting theoretical curve is in good agreement with the experimental value, and the correlation coefficient reaches 0.945. The improved nonlinear creep damage model after the introduction of damage variable is more reasonable for description of the unloading creep characteristics of slate in the study area, which provides a theoretical basis for the stability analysis of surrounding rock under relevant working conditions.

       

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